Onerzia
Official evidence describes OnFlowUs as a passive, lightweight sports exoskeleton for elite athletes. Body-area details were not clear in the existing evidence, so leave body area unknown pending product review.
Bitbrain
Bitbrain develops wearable neurotechnology systems intended for research and real-world brain-computer interaction (BCI). Their portfolio includes advanced EEG headsets that are used in the development of intent-based exoskeleton control and cognitive monitoring. They provide enabling technology for the wearable robotics industry by facilitating brain-to-machine communication for motor recovery and human augmentation.
Instead Technologies
Instead Technologies develops innovative robotic solutions for healthcare. Their flagship system, In-Touch, is designed for the intensive rehabilitation of the upper limbs in patients with neurological damage. They focus on providing affordable, evidence-based robotic tools that facilitate motor recovery through repetitive, task-oriented exercises in clinical settings.
ITURRI
ITURRI is a global leader in protective equipment and safety solutions. They have developed the PREXER, a passive back-support exoskeleton designed for workers in logistics and industry. The company leverages its decades of expertise in PPE (Personal Protective Equipment) to integrate wearable mechanical support into its safety offerings.
Technaid
Technaid develops robotic and motion analysis systems intended for health and movement science. Their Exo-H3 is a powered lower-limb exoskeleton specifically designed for research into robotic rehabilitation and gait analysis. They also provide inertial motion capture sensors used in conjunction with wearable robotics for precise movement tracking.
Cyber Human Systems
Cyber Human Systems designs and develops exoskeletons for industrial, military, and rescue applications. As a spin-off of Gogoa Mobility Robots, the company focuses on physical augmentation to manage fatigue and strain. Products include the Exoshoulder for overhead support and textile-based soft suits for back support.
ABLE Human Motion
ABLE Human Motion develops lightweight robotic exoskeletons for mobility impairments. The ABLE Exoskeleton is an active hip-knee powered device designed to assist individuals with spinal cord injury (SCI) in standing and walking during clinical rehabilitation.
Marsi Bionics
Marsi Bionics, a Spanish CSIC spin-off, develops pediatric and neurological rehabilitation exoskeletons including Atlas 2030 and related active-knee/gait-training systems.
Gogoa Mobility Robots
Gogoa develops robotic devices for movement rehabilitation and industrial workplace safety, including HANK, BELK and Hand of Hope, and is associated with Movex Clinics for robotic neurorehabilitation.